IMC Networks Network Card E1 User Manual

IE-iMcV-T1/E1/J1-LineTerm  
SFP and 1x9  
Operation Manual  
Above illustration is representative; different models available  
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Table of Contents  
FCC Radio Frequency Interference Statement ....................................................ii  
Warranty............................................................................................................ii  
About the IE-iMcV-T1/E1/J1-LineTerm................................................................1  
Installing an iMcV-Module .................................................................................2  
Crossover/Straight-Through Connection..............................................................2  
Configuration.....................................................................................................2  
Prerequisites ......................................................................................................2  
Managed Modules .............................................................................................3  
Configuration Control ........................................................................................4  
Unmanaged Modules.........................................................................................5  
DIP Switches......................................................................................................6  
DIP Switch Settings (S2, S3)................................................................................7  
Features.............................................................................................................9  
LED Operation.................................................................................................13  
Loopback Testing.............................................................................................14  
Pseudorandom Bit Sequence (PRBS) Testing ....................................................15  
Installation Troubleshooting .............................................................................15  
Specifications...................................................................................................17  
IMC Networks Technical Support.....................................................................17  
Fiber Optic Cleaning Guidelines.......................................................................18  
Electrostatic Discharge Precautions...................................................................19  
Certifications....................................................................................................20  
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About the IE-iMcV-T1/E1/J1-LineTerm, TP/SFP  
NOTE  
Unless noted otherwise, any reference is applicable for both the 1x9 and SFP version of  
the IE-iMcV-T1/E1/J1-LineTerm in this manual.  
IE-iMcV-T1/E1/J1-LineTerm, TP/SFP is an SNMP-Manageable module that converts  
standard TDM-based copper transports (T1, E1, J1) to a single-mode or multi-mode  
fiber signal. It performs a standard “Line Termination” function as defined in GR-  
820-CORE. This function transmits an Alarm Indication Signal (AIS) on the line  
whenever the received signal is lost. Line faults can easily be isolated to one line  
section and do not propagate over multiple-line sections as they do with normal line  
repeaters.  
Each module includes one RJ-48 connector, one pair of ST or SC fiber optic  
connectors or an SFP port, which can support any fiber type at 155Mbps; dual strand  
available in LC connectors, and Single Strand Fiber SFPs available in SC connectors.  
IE-iMcV-T1/E1/J1-LineTerm, TP/SFP modules install into any modular, SNMP  
manageable iMediaChassis, as well as the MediaChassis series, which is unmanaged.  
The IE-iMcV-T1/E1/J1-LineTerm, TP/SFP offers an extended temperature range of  
-40°C to +85°C; when installed in an IE-MediaChassis/1 or 2, available in AC and  
DC, the module can be installed in challenging heat or cold-related environments.  
An IE-iMcV-T1/E1/J1-LineTerm, TP/SFP with SFP Module with Configuration Control,  
configured as a Host, allows an SNMP Management Module in a managed chassis to  
manage the Remote. All settings are enabled and enforced through the SNMP. The  
Host keeps a copy of the Remote’s configuration settings. Each module offers the  
feature Configuration Control; please refer to the appropriate section.  
When the Host unit is not in a managed chassis, the Host configures the Remote. This  
ensures that the Remote’s configuration will not revert to its DIP Switch settings and  
potentially disrupt traffic. However, if the user changes the DIP Switch settings on the  
Remote, the new configuration of the Remote will be enabled.  
When SNMP management is installed at the Host, the following functions at the  
Remote are controlled from the Host unit:  
Loopback  
Line Code  
Transmit Data Source  
Fault Loopback  
The IE-iMcV-T1/E1/J1-LineTerm, TP/SFP with SFP Host unit can also display the  
DDMI information from the Remote LineTerm module. Please download the latest  
SNMP Management Module firmware and iVIew² software to ensure the full support  
and functionality of the modules.  
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NOTE  
IE-iMcV-T1/E1/J1-LineTerm, TP/SFP with SFP Module can be installed in an iMediaChassis  
and MediaChassis series.  
Installing an iMcV-Module  
iMcV-Modules install in IMC Networks’ SNMP manageable iMediaChassis series or in  
any MediaChassis/IE-MediaChassis series.  
To install an iMcV-Module:  
1. Remove the blank bracket covering the slot where the module is to be installed  
by removing the screws on the outside edges of the bracket.  
2. Slide the iMcV-Module into the chassis, via the cardguides, until the module is  
seated securely in the connector.  
3. Secure the module to the chassis by tightening the captive screw.  
4. Save any “blanks” removed during installation for future use if the configuration  
requirements change.  
NOTE  
All modules are hot-swappable  
Crossover/Straight-Through Connection  
IE-iMcV-T1/E1/J1-LineTerm, TP/SFP comes with an RJ-48 UTP connector that features  
a push-button switch, located next to the port, for selecting a crossover connection,  
push-button IN. A straight-through connection is selected when the push-button is  
OUT. When unsure what type of connection is needed, set the push button to the  
position that turns the LOS LED off.  
Configuration  
Proper configuration of the IE-iMcV-T1/E1/J1-LineTerm, TP/SFP is required for  
maximum performance and reliability. The following sections describe the  
prerequisites and the configurations available for both managed and unmanaged  
modules.  
Prerequisites  
The IE-iMcV-T1/E1/J1-LineTerm, TP/SFP conforms to any T1/E1/J1-based  
environment. Ensure all of the relevant information about the expected installation  
environment is available before configuring the module. This information includes:  
Line Type T1 or E1  
Line Coding used on T1: either AMI or B8ZS  
Distance of the copper run for DSX1 lines (655 feet MAX)  
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Required CSU line Buildout (0db to -22db)  
Receiver BOOST for T1 and E1 applications  
Fiber transceivers must be for appropriate fiber run, i.e. (SM or MM)  
Management location must be at HOST unit  
Managed Modules  
The IE-iMcV-T1/E1/J1-LineTerm, TP/SFP modules are installed as a HOST-REMOTE  
pair and can be remotely managed when the HOST is installed in an iMediaChassis  
with an SNMP Management module.  
For a managed environment, first manually configure the desired features through  
DIP Switch settings to ensure this configuration is maintained if management is ever  
lost. After the module is installed, the SNMP enabled features for troubleshooting  
can be modified by using the included iView2 SNMP management software. Ensure  
the software settings match the desired configuration requirements for the installation  
as the chassis may maintain an old setting from a previous installation for that slot  
location. Module Details will provide information such as serial number, date code  
and part number. Please download the current SNMP firmware and iView2 software  
to ensure all functionality of the modules.  
NOTE  
If installing an IE-iMcV-T1/E1/J1-LineTerm, available in a fixed fiber transceiver model (series  
850-141XX), as a Host and an IE-iMcV-T1/E1/J1-LineTerm with SFP and Configuration Control  
(850-18100) as a Remote, connectivity will be established and data will pass. However, there  
is no possibility of obtaining DDMI information of the SFP from the Remote end, since the  
Host is not capable of it. If the Host and the Remote units are both IE-iMcV-T1/E1/J1-  
LineTerm with SFP and Configuration Control, then the Host can extract DDMI information  
from the SFP at the Remote end.  
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Configuration Control  
Some iMcV-Modules offer configuration control; labels on the front faceplate are  
identified as such. Configuration control has been implemented to assist the end user  
by retaining the latest configuration regardless of how that configuration was  
implemented (via DIP Switch settings or SNMP).  
Historically, SNMP would override DIP Switch settings. If changes are made to the  
module via iView2, the SNMP settings determine the configuration of the board and  
the DIP Switches had no effect. Configuration control enables the user to use iView2  
or DIP Switches to modify the configuration.  
With configuration control, the end user has three conditions under which the  
configuration of the iMcV-Module with Configuration Control may be impacted:  
Installing an IE-iMcV-T1/E1/J1-LineTerm, TP/SFP into a chassis already loaded  
with iMcV-Modules or replacing an IE-iMcV-T1/E1/J1-LineTerm, TP/SFP  
-
The iMcV-Module will transfer its saved configurations. The IE-iMcV-  
T1/E1/J1-LineTerm, TP/SFP will not override the module’s configuration.  
Replacing the same type of iMcV-Module  
-
If the DIP Switch settings are the same as the settings on the removed iMcV-  
Module, the IE-iMcV-T1/E1/J1-LineTerm, TP/SFP determines the  
configuration settings through the chassis's management.  
-
If the DSW are different, then the configuration of the module is  
determined by the DIP Switch settings. (The settings are forwarded to the  
chassis's management module and the value is saved.)  
Installing a new model of iMcV-Module  
-
If another type of module is installed into the same slot in a chassis, the IE-  
iMcV-T1/E1/J1-LineTerm, TP/SFP clears the memory of the previous  
configuration for that slot; the settings of a new module are adopted and  
stored in the IE-iMcV-T1/E1/J1-LineTerm, TP/SFP.  
The SNMP Write Lock switch does not impact any iMcV-Module or IE-iMcV-Module  
with Configuration Control. Removing and installing a new SNMP Management  
Module will no longer impact these modules either. However, if there is a mixture of  
iMcV-Modules with and without Configuration Control, the Write Lock Switch and a  
new SNMP Management Module must be taken into consideration.  
If the command cleandb is applied to an SNMP Management Module, all the settings  
for the modules will be removed, but the Configuration Control modules will still be  
based on the last change made, while those without Configuration Control will be set  
to their default settings.  
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NOTE  
If the end user has a mixture of standard iMcV-Modules as well as Configuration Control  
iMcV-Modules, it is important to understand how SNMP and DIP Switches will impact the  
cards depending on their capability. Standard iMcV-Modules cannot be upgraded to  
Configuration Control capability, so it is strongly recommended to set the DIP Switches on  
the modules and then configure them via software to match the same settings.  
iView² Management Software  
iView² is the IMC Networks management software designed specifically for the IMC  
Networks “iMcV” family of modules. It features a GUI and gives network managers  
the ability to monitor and control the manageable IMC Networks products.  
iView² is available in several versions, including WebServer version 3.0, and can also  
function as a snap-in module for HP OpenView Network Node Manager and other  
third party SNMP Management software. For assistance in selecting the right version  
of iView² for your operating system, please visit:  
iView2 supports the following platforms:  
Windows 2000  
Windows XP  
Windows Vista  
Windows 7  
Please see the SNMP Management Module installation guide for software  
configuration options.  
Unmanaged Modules  
Before installing the module in an unmanaged chassis, manually configure all of the  
desired DIP Switch selectable features. Refer to Tables on page 7 and 8.  
Modules must be configured as a HOST-REMOTE pair via DIP Switches. Modules  
are shipped in the default setting as a HOST.  
HOST:  
S3-2 OFF  
REMOTE: S3-2 ON  
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DIP Switches  
The IE-iMcV-T1/E1/J1-LineTerm, TP/SFP DIP Switches are located on S2 and S3 on  
the PCB. The location of the S2 and S3 DIP Switches are displayed in the following  
diagram:  
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DIP Switch Settings (S2, S3)  
Switch Settings for Switch S2  
T1/E1 Selection  
S2-1: OFF T1 Mode Selected  
default  
S2-1: ON  
E1 Mode Selected  
Receive Equalizer Gain Limit (EGL)  
E1  
S2-2: ON -12 dB (Short Haul)  
S2-2: OFF -43 dB (Long Haul)  
T1  
S2-2: ON -36 dB (Long Haul)  
S2-2: OFF -30 dB (Limited Long Haul)  
Line Encoding iVIEW2  
S2-3: ON HDB3 (E1) / B8ZS (T1)  
S2-3: OFF AMI (Required for Passive Mode)  
Transmit LIU Waveshape (Build-out)  
E1  
iVIEW2  
iVIEW2  
iVIEW2  
iVIEW2  
iVIEW2  
iVIEW2  
iVIEW2  
default  
default  
iVIEW2  
iVIEW2  
S2-4: ON  
S2-4: OFF  
S2-4: ON  
S2-4: OFF  
S2-5: ON  
S2-5: ON  
S2-5: ON  
S2-5: ON  
S2-6: ON  
S2-6: ON  
S2-6: OFF  
S2-6: OFF  
75 ohms  
125 ohms  
75 S ohms w/ High Return Loss  
125 S ohms w/ High Return Loss  
T1  
S2-4: ON  
S2-4: OFF  
S2-4: ON  
S2-4: OFF  
S2-4: ON  
S2-4: OFF  
S2-4: ON  
S2-4: OFF  
S2-5: ON  
S2-5: ON  
S2-5: OFF  
S2-5: OFF  
S2-5: ON  
S2-5: ON  
S2-5: OFF  
S2-5: OFF  
S2-6: ON  
S2-6: ON  
S2-6: ON  
S2-6: ON  
S2-6: OFF  
S2-6: OFF  
S2-6: OFF  
S2-6: OFF  
DSX-1 (0 to 133 ft) 0 dB CSU  
DSX-1 (133 to 266 ft)  
DSX-1 (266 to 399 ft)  
DSX-1 (399 to 533 ft)  
DSX-1 (533 to 655 ft)  
-7.5 dB CSU  
default  
-15 dB CSU  
-22.5 dB CSU  
Receive LIU Termination  
S2-7: ON  
S2-7: OFF  
S2-7: ON  
S2-7: OFF  
S2-8: ON  
S2-8: ON  
S2-8: OFF  
S2-8: OFF  
Receive Side Termination Disabled  
Receive Side 120 ohms Enabled  
Receive Side 100 ohms Enabled  
Receive Side 75 ohms Enabled  
default  
default  
Transmit Data Source iVIEW2  
iVIEW2  
iVIEW2  
iVIEW2  
iVIEW2  
S2-9: ON  
S2-9: OFF  
S2-9: ON  
S2-9: OFF  
S2-10: ON  
S2-10: ON  
S2-10: OFF  
S2-10: OFF  
Standard Data  
Transmit Pseudorandom Bit Sequence (PRBS)  
Transmit Alternating Ones and Zeros  
Transmit Unframed All Ones  
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Switch Settings for Switch S3  
Reserved  
S3-1: ON  
S3-1: OFF  
Reserved  
Reserved  
default  
Remote Management  
S3-2: ON  
S3-2: OFF  
Remote Management Enabled (only at the REMOTE end)  
Remote Management Disabled (only at the LOCAL end)  
default  
default  
Loopback Selection iVIEW2  
S3-3: ON  
S3-3: OFF  
S3-3: ON  
S3-3: OFF  
S3-4: ON  
S3-4: ON  
S3-4: OFF  
S3-4: OFF  
None  
iVIEW2  
iVIEW2  
iVIEW2  
iVIEW2  
Fiber Analog Loopback  
Internal Fiber Loopback  
Copper Remote Loopback  
Monitor/Boost Mode  
S3-5: ON  
S3-5: OFF  
S3-5: ON  
S3-6: ON  
Normal Operation (No Boost)  
default  
default  
S3-6 ON  
S3-6 OFF  
S3-6 OFF  
20 dB  
26 dB  
32 dB  
S3-5: OFF  
Fault Loopback  
S3-7: ON  
iVIEW2  
iVIEW2  
Send AIS is sent back toward the fault on the RJ-45 port  
AIS is only sent toward the fiber on detecting a fault on the  
RJ-45 port  
S3-7: OFF  
Fiber Type  
S3-8: Factory Configured  
S3-9: Factory Configured  
DO NOT CHANGE  
DO NOT CHANGE  
S3-10: Factory Configured DO NOT CHANGE  
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Features  
The IE-iMcV-T1/E1/J1-LineTerm, TP/SFP module includes several features to facilitate  
maintenance and troubleshooting in any T1/E1/J1 based TDM environment.  
SFP  
SFPs with Data and Diagnostics Management Information (DDMI) can be installed in  
the SFP port of the host and the remote. This allows the end user to view the DDMI  
information through the chassis's management using the SFP button in iView2.  
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Loopback Modes  
This feature allows three distinct Loopbacks to be activated either through DIP  
Switches or iView2 Management.  
Fiber  
Loopback  
An analog Loopback at the copper port back to the fiber port. It  
copies the received optical signal back to the optical line at the  
copper port and continues to drive the copper port, but can be  
corrupted by noise on the copper port.  
Internal  
Fiber  
Loopback  
A local Loopback at the fiber port. It copies the received optical  
signal back to the optical line at a digital point internal to the unit.  
It continues to drive the copper port, and normal copper line  
monitoring is maintained on the copper port, but the returning  
data pattern is not affected.  
Copper  
Loopback  
A remote Loopback to copper port at the fiber driver. It copies  
the received copper signal back to the copper port and continues  
to drive the fiber port.  
By default all Loopbacks are set to OFF for normal data operation.  
The following illustrations show the path that a signal takes in each of the Loopback  
test modes.  
This feature can be controlled by SNMP–Management software (iView2) when the  
HOST IE-iMcV-T1/E1/J1-LineTerm, TP/SFP module is installed in a managed chassis.  
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Fault Loopback  
This switch enables or disables the Fault Loopback feature on the copper port. A  
normal copper line LOS fault will cause a Remote Alarm Indictor (RAI) to be sent on  
to the fiber line segment causing the normal AIS to be sent on the far end copper  
port. The fault loopback feature provides for a fault indication to be sent back to the  
copper line as an AIS signal. In this way, both upstream and downstream personnel  
are alerted to a copper cable fault.  
The Fault Loopback feature is always active on the fiber line. When a fiber line  
becomes unavailable, the module detects the LOS on the fiber link and lights the  
LOS LED. The module then sends AIS to the local copper port and sends a RAI signal  
back to the fiber. The far end unit turns ON the RAI LED and outputs AIS to the far  
end copper line. With this, a local site administrator can quickly determine where a  
fiber fault is located from either end of the fiber line.  
The AIS is transmitted as an unframed all ones pattern on the copper port.  
The default loopback DIP Switch is disabled by default.  
This feature can be controlled by SNMP-Management software (iView2) when the  
HOST IE-iMcV-T1/E1/J1-LineTerm, TP/SFP module is installed in a managed chassis.  
Transmit LIU Waveshape and Gain (Line Build-Out)  
This group of switches can be configured for the length of line the unit is driving, from  
0 feet to a maximum of 655 feet. For longer length lines, the unit can be configured  
for CSU signal gain to address -7.5 db, -15db, and -22.5 db degraded signals.  
By default this feature is set to 0 to 133 feet line Buildout for DSX1 lines.  
Transmit Data Source  
These switches select the transmit mode used by the IE-iMcV-T1/E1/J1-LineTerm,  
TP/SFP module. The transmit modes that can be selected include the following:  
Standard data  
Unframed All Ones (diagnostic)  
Alternating Ones and Zeros (diagnostic)  
Pseudorandom Bit Sequence Pattern for T1 and 215-1 PRBS Pattern for E1)  
These standard Telco transmission pattern modes are provided to help diagnose  
transmission errors in the line.  
By default this feature is set to Standard Data.  
This feature can be controlled by SNMP-Management software (iView2) when the  
HOST IE-iMcV-T1/E1/J1-LineTerm, TP/SFP module is installed in a managed chassis.  
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T1, E1 and J1 Selection  
This switch selects the data rate to use on the copper line. The data rate selections  
available include the following:  
T1/J1 (1.544 Mbps +/- 32 ppm)  
E1 (2.048 Mbps +/- 32 ppm)  
By default this feature is set to T1.  
This feature can be selected only by setting the DIP Switches manually.  
Remote Management  
A DIP Switch enables or disables the Remote Management mode. By default this  
feature is Disabled. Remote Management must be enabled on the REMOTE module.  
This allows all SNMP-configurable features for the REMOTE modules to be configured  
from the HOST module.  
An IE-iMcV-T1/E1/J1-LineTerm w/SFP Module with Configuration Control, configured  
as a Host, allows an SNMP Management Module in a managed chassis to manage  
the Remote. All settings are enabled and enforced through the SNMP. The Host  
keeps a copy of the Remote’s configuration settings.  
When the Host unit is in a managed chassis, the Host configures the Remote. This  
ensures that the Remote’s configuration will not revert to its DIP Switch settings and  
potentially disrupt traffic. However, if the customer changes the DIP Switch settings  
on the Remote, the new configuration of the Remote will be saved by the host.  
When SNMP management is installed at the Host, the following functions at the  
Remote are controlled from the Host unit:  
Loopback  
Line Code  
Transmit Data Source  
Fault Loopback  
NOTE  
IE-iMcV-T1/E1/J1-LineTerm, TP/SFP with SFP Module can be installed in an  
iMediaChassis and MediaChassis series. However, there is no support for the module  
in the iMediaCenter Series.  
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LED Operation  
The IE-iMcV-T1/E1/J1-LineTerm, TP/SFP module features several diagnostic LEDs per  
port. The following LED display functions are provided:  
Copper Port LEDs  
ER  
Flashes yellow whenever a line code violation is  
received.  
LOS  
Glows red when the RJ-48 is receiving no signal and is  
in an LOS ALARM state. This condition will also send  
an RAI signal to the fiber port. If the Fault Loopback is  
set to ON, an AIS will also be sent to the local copper  
port.  
PRBS  
TEST  
Glows green when the copper port receives a valid  
Pseudorandom Bit Sequence (PRBS). It is OFF when  
the port is not receiving a PRBS.  
Glows yellow when any Loopback mode is active.  
Fiber Port LEDs  
ER  
Glows yellow when a fiber symbol error has been  
received.  
LOS  
RM  
Glows red when a fiber link is not established and is in  
a LOS ALARM state.  
Glows green on the REMOTE unit when Remote  
Management is enabled. Glows green on the HOST  
unit when it has discovered a manageable REMOTE  
unit. Under normal operation this LED is the only LED  
that is ON at the unit.  
RAI  
Glows yellow when a Remote Alarm Indication (RAI) is  
received on the fiber port. This indicates a fault exists  
at the far end unit.  
NOTE  
Unless noted otherwise, any reference is applicable for both the 1x9 and SFP version of  
the IE-iMcV-T1/E1/J1-LineTerm in this manual.  
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Loopback Testing  
The IE-iMcV-T1/E1/J1-LineTerm, TP/SFP includes three Loopback test modes: Copper  
Loopback, Fiber Loopback and Internal Fiber Loopback.  
The following illustrations show a typical progression of Loopback tests (i.e., starting  
by checking the copper segment at the local side, then the fiber segment at the  
REMOTE side, etc).  
Each Loopback performs the following:  
Copies the incoming signal back out to the origin while continuing to transmit this  
signal downstream.  
Blocks upstream data from transmitting on the looped data line.  
Loopback testing is useful for troubleshooting problems with network connections  
should they occur. Looping received data back onto the transmit path helps  
determine whether a connection is still valid. Copper Loopback tests isolate  
problems on the copper run between an IE-iMcV-T1/E1/J1-LineTerm, TP/SFP module  
and the connected device, while Fiber Loopback tests can isolate problems on the  
fiber connected to the module.  
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Pseudorandom Bit Sequence (PRBS) Testing  
To test using PRBS, configure the IE-iMcV-T1/E1/J1-LineTerm, TP/SFP modules for No  
Loopback, and then configure the Transmit Copper Data Source to PRBS. Configure  
the local device for Loopback and start the test. Verify the PRBS LED is ON  
indicating no errors are being received.  
Installation Troubleshooting  
General Troubleshooting  
• The copper port can easily be tested using the internal PRBS signal generator and  
detector and a physical wire loop on the copper interface.  
• The fiber port is internally tested at all times by a working pair of units. With one  
unit configured for Local Management (S3-2 set OFF) and the other for Remote  
Management (S3-2 set ON), the fiber line is verified if the RM LED is ON at both  
ends of the fiber line. Under normal operation only the RM LED is ON at both  
HOST and REMOTE.  
• To test a media converter by itself, first verify that the fiber patch cable is  
appropriate, then follow these steps to test:  
1. Connect the media converter to the RJ-48 device with a copper cable.  
2. Loop a single strand of fiber from the transmit port to the receive port of the  
media converter.  
3. Verify that there is a valid connection for both the RJ-48 and fiber ports on the  
media converter. (No ER or LOS LED ON)  
• If there is trouble with link connectivity, verify that the cable connection and DIP  
Switch settings are correct.  
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Use the following LED indications to identify the fault location:  
*DIP Switch S3-7 must be set to ON for Fault Loopback to operate as illustrated.  
The following table lists the pin configuration for the RJ-48 connector.  
Pin  
1
2
Signal  
Receive Ring  
Receive Tip  
3
4
5
6
7
8
No Connection  
Transmit Ring  
Transmit Tip  
No Connection  
No Connection  
No Connection  
Pin 1  
16  
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Specifications  
Standards Compliance (T1, E1, J1):  
ANSI T1.102-1993  
ANSI T1.107.1995  
GR-820-CORE  
T1, E1, J1 Interface:  
T1 (1.544 Mbps +/- 32 ppm)  
E1 (2.048 Mbps +/- 32 ppm)  
J1 (1.544 Mbps +/- 32 ppm)  
Power Consumption (Typical):  
0.550 Amps @ 5 V  
Operating Temperature:  
-4°F to +158°F (-20°C to +70°C)  
Storage Temperature:  
-40°F to +185°F (-40°C to +85°C)  
Humidity:  
5% to 95% non-condensing  
Dimensions:  
Single Slot iMcV-Module  
IMC Networks Technical Support  
Tel: (949) 465-3000 or (800) 624-1070 (in the U.S. and Canada);  
+32-16-550880 (Europe)  
Fax: (949) 465-3020  
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Fiber Optic Cleaning Guidelines  
Fiber Optic transmitters and receivers are extremely susceptible to contamination by  
particles of dirt or dust, which can obstruct the optic path and cause performance  
degradation. Good system performance requires clean optics and connector ferrules.  
1. Use fiber patch cords (or connectors, if you terminate your own fiber) only from  
a reputable supplier; low-quality components can cause many hard-to-diagnose  
problems in an installation.  
2. Dust caps are installed at IMC Networks to ensure factory-clean optical devices.  
These protective caps should not be removed until the moment of connecting  
the fiber cable to the device. Should it be necessary to disconnect the fiber  
device, reinstall the protective dust caps.  
3. Store spare caps in a dust-free environment such as a sealed plastic bag or box  
so that when reinstalled they do not introduce any contamination to the optics.  
4. If you suspect that the optics have been contaminated, alternate between  
blasting with clean, dry, compressed air and flushing with methanol to remove  
particles of dirt.  
18  
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Electrostatic Discharge Precautions  
Electrostatic discharge (ESD) can cause damage to any product, add-in modules or  
stand alone units, containing electronic components. Always observe the following  
precautions when installing or handling these kinds of products  
1. Do not remove unit from its protective packaging until ready to install.  
2. Wear an ESD wrist grounding strap before handling any module or component.  
If the wrist strap is not available, maintain grounded contact with the system unit  
throughout any procedure requiring ESD protection.  
3. Hold the units by the edges; do not touch the electronic components or gold  
connectors.  
4. After removal, always place the boards on a grounded, static-free surface, ESD  
pad or in a proper ESD bag. Do not slide the modules or stand alone units over  
any surface.  
WARNING! Integrated circuits and fiber optic components are  
extremely susceptible to electrostatic discharge damage. Do not  
handle these components directly unless you are a qualified  
service technician and use tools and techniques that conform to  
accepted industry practices.  
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Certifications  
CE: The products described herein comply with the Council Directive on  
Electromagnetic Compatibility (2004/108/EC)  
Class 1 Laser product, Luokan 1 Laserlaite,  
Laser Klasse 1, Appareil A’Laser de Classe 1  
European Directive 2002/96/EC (WEEE) requires that any equipment that bears this  
symbol on product or packaging must not be disposed of with unsorted municipal  
waste. This symbol indicates that the equipment should be disposed of separately  
from regular household waste. It is the consumer’s responsibility to dispose of this  
and all equipment so marked through designated collection facilities appointed by  
government or local authorities. Following these steps through proper disposal and  
recycling will help prevent potential negative consequences to the environment and  
human health. For more detailed information about proper disposal, please contact  
local authorities, waste disposal services, or the point of purchase for this equipment.  
20  
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19772 Pauling • Foothill Ranch, CA 92610-2611 USA  
TEL: (949) 465-3000 • FAX: (949) 465-3020  
© 2011 IMC Networks. All rights reserved.  
The information in this document is subject to change without notice. IMC Networks assumes no responsibility for any  
errors that may appear in this document. IE-iMcV-T1/E1/J1-LineTerm is a trademark of IMC Networks. Other brands or  
product names may be trademarks and are the property of their respective companies.  
Document Number 50-80104-00 A1  
October 2011  
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